RU2552282C1 - Grain cleaning machine - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: grain cleaning machine comprises a feeding device, a sieve drum mounted on the drive shaft, consisting of cylindrical sieves mounted with longitudinal displacement, in the lower part of which the clamping webs of cylindrical shape are located, the receivers of fine, basic and long fractions, located under each other sequentially behind the sieve drum. The sieve drum consists of three blocks of cylindrical sieves with different openings. The working size of the openings of the upper block of the cylindrical sieves is smaller than the width of the treated grain seeds. The size of the openings of the sieves of the middle block is greater than the width of the treated grain seeds. The size of the openings of the sieves of the lower block is larger than the size of openings of the upper block, but smaller than the size of openings of the middle block of the cylindrical sieves.

EFFECT: increase in efficiency of cleaning of the grain cleaning machine.

3 dwg

Description

The present invention relates to techniques for cleaning and sorting grain seeds at the post-harvest processing of grain crops.

A known grain cleaning machine containing a sieve drum connected to a rotor located inside it, a vibrator and a frame (see SU No. 710662, B07B 1/26, 25.01.80).

A disadvantage of the known machine is the low productivity and the inability to separate short and long impurities.

The closest in purpose and technical essence to the proposed invention is a grain cleaning machine, including a feed device, fraction receivers, sieves with the same holes, the working size of which is greater than the width of the processed grain seeds. In the upper part of the sieves, in addition to the first, there are continuous transport devices, followed by perforated transport devices. Between the sieves, clamping webs of cylindrical shape with slit-like openings were installed. The sieves, solid and perforated transport devices are cylindrical in shape and form a sieve drum mounted on the drive shaft. The receivers of small, main and long fractions are located one after another sequentially behind the sieve drum (see RU No. 2341339, B07B 1/22, 12/20/2008).

A disadvantage of the known machine adopted as a prototype is the low cleaning efficiency.

Thus, the problem solved by the present invention is to intensify the process of cleaning and sorting grain seeds.

The technical result of the claimed invention is to increase the cleaning efficiency of the grain cleaning machine.

The specified technical result is achieved by the fact that in a known grain cleaning machine containing a feeding device, a sieve drum mounted on a drive shaft, consisting of cylindrical sieves installed with longitudinal displacement, in the lower part of which there are cylindrical clamping sheets, small, main and long fractions arranged one after another sequentially behind the sieve drum, according to the invention the sieve drum consists of three blocks of cylindrical sieves with different holes and, the working size of the openings of the upper block of cylindrical sieves is less than the width of the processed seeds of the grain, the size of the openings of the sieves of the middle block is larger than the width of the processed seeds of the grain, the size of the openings of the sieves of the lower block is larger than the holes of the upper block, but smaller than the holes of the middle block of cylindrical sieves.

Distinctive features of the claimed invention are a new embodiment of the sieve drum, namely in the form of three blocks of cylindrical sieves, as well as different sizes of the holes of the sieve blocks. This embodiment of the sieve drum in the form of three blocks with different holes of cylindrical sieves allows you to use not only the gravity of the particles of grain material, but also additionally use the action of centrifugal forces of the rotational motion of the drive shaft, which increases the likelihood of passage particles entering the surface of the sieves and the passage into the holes of the sieves the first block and the removal of small particles from the process, which ultimately provides an increase in the efficiency of cleaning the grain cleaning machine from small here is. In this case, the main fraction of grain seeds and long impurities do not pass through the openings of the sieves of the upper block. The main grain seed fraction is transferred to the sieve of the middle block and passes through the openings of its sieve, the size of which is larger than the width of the processed grain seeds, sieved and removed from the middle block to the receiver of the main fraction. Particles of long impurities also pass to the sieve of the middle block, linger on each sieve of it, do not have time to go to the end of the sieve of the middle block and go to the sieve of the lower block, where they immediately enter the long fraction receiver. In addition, the implementation of the structural elements of the machine cylindrical shape allows to reduce the overall dimensions of the machine.

The implementation of the lower block of cylindrical sieves with holes smaller than the middle block of cylindrical sieves, but larger than the upper block of cylindrical sieves, allows to increase the efficiency of cleaning grain from long impurities by creating a layer of grain material in the final sections of the lower block of cylindrical sieves.

Thus, it is the distinctive features of the claimed invention in combination with the known features that achieve the technical result indicated in the invention.

The invention is illustrated by drawings, where in FIG. 1 shows a diagram of a grain cleaning machine, FIG. 2 - a block of cylindrical sieves, in FIG. 3 - clamping cloth.

The grain cleaning machine comprises a feeding device 2 mounted on a cylindrical housing 1. In the housing 1, a sieve drum is fixed to the drive shaft 3, consisting of three blocks 4, 5, 6 of cylindrical sieves installed with longitudinal displacement. The working size of the holes 7 of the upper 4 block of cylindrical sieves is less than the width of the processed grain seeds. The working size of the holes 8 of the middle 5 block of cylindrical sieves is greater than the width of the processed grain seeds. The working size of the holes 9 of the lower 6 block of cylindrical sieves is larger than the size of the holes 7 of the upper 4 block, but smaller than the size of the holes 8 of the middle 5 block of cylindrical sieves. Between the cylindrical sieves of the lower block 6 of the sieve drum, clamping webs 10 of cylindrical shape are installed, which have a device 11 for moving them along the shaft 3. The cylindrical clamping webs 10 are fixed to each other by means of crosses and welded to the sleeve. In the canvases 10, slit-like openings 12 are made. Behind the sieve drum, successively 13, 14, 15 receivers, respectively, of fine, main, and long fractions, are mounted successively under each other. The grain cleaning machine comprises an electric motor 16 with a V-belt drive 17 connected to the shaft 3.

The proposed grain cleaning machine operates as follows.

Grain material to be cleaned is fed evenly by the feeding device 2 into the housing 1 to the sieve drum (see Fig. 1). Under the action of centrifugal forces of the rotational movement of the drum, the drive of which is carried out by an electric motor 16 and a V-belt transmission 17, particles of grain material are pressed to the surface of the first cylindrical sieve of the middle block 5 and, under the action of the gravity of the particles, move along its generatrix from top to bottom. Under the action of these forces, the material is sifted through the holes 8 of the first cylindrical sieve of the middle block 5, falling on the first cylindrical sieve of the upper block 4 and on the second cylindrical sieve of the middle block 5, then falls on the third sieve of the block 5 and on the second sieve of the block 4, etc. . In this case, small particles of grain material on each cylindrical sieve of the middle block 5 are sieved earlier than the main grain and concentrated on the cylindrical sieves of the upper block 4. These particles are sifted faster than the other particles through the cylindrical sieves of the upper block 4 and enter the fine fraction receiver 13. The main fraction of grain seeds, having a lower screening intensity than small impurities, but more intense than long impurities, passes through holes 8 of the middle block 5, but does not pass through the hole 7 of the upper block 4, goes to the sieves of the middle block 5, is sieved there and fall into the receiver 14 of the main fraction. Particles of long impurities (parts of spikelets, wild oats, etc.) have a lower sieving intensity, i.e. they linger longer on each cylindrical sieve of the middle block 5 until they enter their holes, move along them and are sifted in the lower sections of the cylindrical sieve of the middle block 5 and fall on the cylindrical sieves of the lower block 6, displaced along the longitudinal axis. In this case, long particles passing into the holes 9 of the cylindrical sieves of the lower block 6, fall on the cylindrical clamping fabric 10.

The movement of the cylindrical clamping sheets 10 along the shaft 3 allows you to increase the efficiency of separation of long impurities when cleaning grain of various crops.

Part of the fraction with long impurities, moving, falls between the cylindrical sieves of the middle block 5 and the cylindrical clamping webs 10. The blades 10 do not allow particles of long impurities to rotate around the edge of the hole 12 of the cylindrical sieve of the lower block 6, so they move along the sieve and get out and arrive at the receiver 15. Thus, in the lower block 6 of the sieve drum due to the installation of cylindrical pressure plates 10 between the sieves is an intensive allocation of long impurities.

In the final sections of the cylindrical sieves of the middle block 5, as a result of sifting the main grain into the holes 8 of the cylindrical sieves of the middle block 5, there remains a layer of grain material in one grain. It has been established that the layer of grain material can increase the efficiency of separation of long impurities due to the fact that, passing into the holes of the sieves, they fall not onto the sieve, but onto the layer of grain material, therefore they are oriented by the long axis along the plane of the sieve, while the probability of sifting into the holes sieve decreases. This increases the efficiency of separation of long impurities, which are pressed against the cylindrical sieve of the middle block 5 under the action of centrifugal forces, and due to gravity, long impurities will go immediately down the sieve of the lower block 6, falling into the receiver 15. Thus, the installed lower block 6 s holes smaller than the cylindrical sieves of the middle block 5, in the final lower sections of the cylindrical sieves of the middle block 5 allows you to form a layer of a certain thickness on each tier of sieves and thereby increase effectively allocating be long impurities.

In addition, the upper block 4 allows you to form a layer of a certain thickness on each tier of the middle block 5, except for the first, since the specific sifting of the cylindrical sieves of the upper block 4 is less than that of the cylindrical sieves of the middle block 5, which ensures the efficiency of separation of long impurities.

Claims (1)

A grain cleaning machine containing a feeding device, a sieve drum fixed to the drive shaft, consisting of cylindrical sieves installed with longitudinal displacement, in the lower part of which there are cylindrical clamping webs, small, main and long fraction receivers located one after another sequentially behind the sieve drum characterized in that the sieve drum consists of three blocks of cylindrical sieves with different holes, the working size of the holes of the upper block of cylindrical sieves m It is smaller than the width of the processed grain seeds, the size of the openings of the sieves of the middle block is larger than the width of the processed seeds of the grain, the size of the openings of the sieves of the lower block is larger than the holes of the upper block, but smaller than the holes of the middle block of cylindrical sieves.

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